Add to ORKGThe self-splicing sunY intron from bacteriophage T4 has the smallest conserved core secondary structure of any of the active group I introns. Here we show that several nonconserved regions can be deleted from this intron without complete loss of catalytic activity. The 3' stems P9, P9.1, and P9.2 can be deleted while retaining 5' cleaving activity. Two base-paired stems (P7.1 and P7.2) that are peculiar to the group IA introns can also be deleted; however, the activities of the resulting derivatives depend greatly on the choice of replacement sequences and their lengths. The smallest active derivative is less than 180 nucleotides long. These experiments help to define the minimum structural requirements for catalysis
Group II introns are a class of ribozymes capable of self-excision from a nascent pre-mRNA sequence ...
Almost all eukaryotic genes contain intervening sequences or introns which must be removed from prim...
Group I introns are catalytic RNAs (ribozymes) capable of catalyzing their self-excision from precur...
The catalytic core of Group I self-splicing introns has been proposed to consist of two structural d...
The first intron to be discovered in a prokaryotic mRNA was found in the td gene of bacteriophage T4...
Two adenosine residues, universally conserved among group I introns, are located in the L4 region of...
for removing the 5 ' precursor segments from tRNA during its maturation. RNase P is particularl...
AbstractA paper in a recent issue of Science describes the first high-resolution structure of part o...
Although the active site of group I introns is phylogenetically conserved, subclasses of introns hav...
International audienceGroup II self-splicing requires the 5' exon to form base pairs with two stretc...
Despite its importance for group II intron catalytic activity, structural information on conserved d...
AbstractBackground: Group II introns are self-splicing RNAs that have mechanistic similarity to the ...
Group I introns belong to a class of large RNAs that catalyze their own excision from precursor RNA ...
Homing endonucleases are rare-cutting enzymes that cleave DNA at a site near their own location, pre...
SummaryGroup II introns are self-splicing ribozymes that share a reaction mechanism and a common anc...
Group II introns are a class of ribozymes capable of self-excision from a nascent pre-mRNA sequence ...
Almost all eukaryotic genes contain intervening sequences or introns which must be removed from prim...
Group I introns are catalytic RNAs (ribozymes) capable of catalyzing their self-excision from precur...
The catalytic core of Group I self-splicing introns has been proposed to consist of two structural d...
The first intron to be discovered in a prokaryotic mRNA was found in the td gene of bacteriophage T4...
Two adenosine residues, universally conserved among group I introns, are located in the L4 region of...
for removing the 5 ' precursor segments from tRNA during its maturation. RNase P is particularl...
AbstractA paper in a recent issue of Science describes the first high-resolution structure of part o...
Although the active site of group I introns is phylogenetically conserved, subclasses of introns hav...
International audienceGroup II self-splicing requires the 5' exon to form base pairs with two stretc...
Despite its importance for group II intron catalytic activity, structural information on conserved d...
AbstractBackground: Group II introns are self-splicing RNAs that have mechanistic similarity to the ...
Group I introns belong to a class of large RNAs that catalyze their own excision from precursor RNA ...
Homing endonucleases are rare-cutting enzymes that cleave DNA at a site near their own location, pre...
SummaryGroup II introns are self-splicing ribozymes that share a reaction mechanism and a common anc...
Group II introns are a class of ribozymes capable of self-excision from a nascent pre-mRNA sequence ...
Almost all eukaryotic genes contain intervening sequences or introns which must be removed from prim...
Group I introns are catalytic RNAs (ribozymes) capable of catalyzing their self-excision from precur...